Just experimenting, but I was wondering if it's possible to make this code work (as in compile):

void main() {
    int number = 5;

    DWORD(*dontThreadOnMe)(PVOID) = [](PVOID data) {
        int value = *(int*) data;

        cout << value << endl;
        cout << "This callback executed successsfully" << endl;

    CreateThread(NULL, NULL, dontThreadOnMe, &number, NULL, NULL);

I have this nagging suspicion that because the standard signature for a LPTHREAD_START_ROUTINE callback is DWORD WINAPI Callback(PVOID) I won't be able to get this to compile without the added (but grammatically illegal) WINAPI tag. Speaking of which, what exactly are the WINAPI and CALLBACK (for say WndProc) attributes? I've never really understood why in certain circumstances you could have multiple attributes on a function.

  • main is required to have int as a return type. You'd also need a __stdcall lambda, which isn't possible. You can wrap it to take a lambda (or anything), though, or just use <thread>. – chris Aug 21 '13 at 21:03
  • 7
    Since you're obviously using C++11, why not just use std::thread which is portable and integrates well with lambdas, instead of the platform-specific CreateThread? – syam Aug 21 '13 at 21:05
  • I only just started learning. But I'll look into that. Thanks! – sircodesalot Aug 21 '13 at 21:08
  • Awesome, works like a charm! – sircodesalot Aug 21 '13 at 21:20
up vote 13 down vote accepted

Actually this is possible with Visual C++ 2012 and above; to quote from Microsoft's list of C++ feature support:

Additionally in Visual C++ in Visual Studio 2012, stateless lambdas are convertible to function pointers. ... we've made stateless lambdas convertible to function pointers that have arbitrary calling conventions. This is important when you are using APIs that expect things like __stdcall function pointers

So in Visual C++ 2012 you can do something like:

unsigned int id;
HANDLE hThread = reinterpret_cast<HANDLE>(_beginthreadex(0, 0,
    [](void* pData) -> unsigned int {
        // I'm a thread!
        return 0;
    }, pThreadData, 0, &id));

This means you can also use lambdas with other API functions that expect callback functions (things like EnumWindows() and CreateDialogParam(), for example).

  • 3
    Ah hah! I long wondered how this would work considering the x86 ABI requires __stdcall for (most) of its thread entry-points (x64 does not really matter). Thank you for pointing this out, +1 – Andon M. Coleman Sep 28 '16 at 21:42

You can make things a little less wordy using auto :)

auto dontThreadOnMe = [](LPVOID data) -> DWORD {
    int value = *(int*)data;
    std::cout << value << std::endl;
    std::cout << "This callback executed successsfully" << std::endl;
    return 0; //don't forget your return code!

int number = 42;
auto thread = CreateThread(nullptr, 0, dontThreadOnMe, &number, 0, nullptr);

Or, for the copy paste addicts who find this answer later on ;), this is all you need:

auto work = [](LPVOID data) -> DWORD { return 0; };
int thread_param = 42;
auto thread = CreateThread(nullptr, 0, work, &thread_param, 0, nullptr);
  • the compiler says i cant cast a lambda into an LPTHREAD_START_ROUTINE – J3STER Mar 19 '17 at 3:29

At least in current* versions of Mingw64 you can specify the calling convention of a lambda function, as in []() WINAPI {}:

    nullptr, // lpThreadAttributes
    0,       // dwStackSize
    [](void *param) WINAPI -> DWORD { // lpStartAddress
        (void) param;
        return 0;
    nullptr, // lpParameter
    0,       // dwCreationFlags
    nullptr  // lpThreadId

*) Tested with i686-w64-mingw32-g++-win32 (GCC) 6.3.0 20170516. Earlier version may work, too.

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